vahideh hadigheh-rezvan | organic chemistry Award | Women Researcher Award

Dr. vahideh hadigheh-rezvan, organic chemistry Award, Women Researcher Award

Assistant Professor at Islamic Azad University, Iran

Vahideh Hadigheh-Rezvan is an accomplished Assistant Professor of Organic Chemistry at Islamic Azad University Ardabil Branch, Iran. With expertise in computational chemistry, her research focuses on diverse areas including the synthesis and characterization of chemical compounds, molecular structure analysis, and optical property investigations. She has contributed significantly to the field with numerous publications in esteemed journals. Vahideh’s expertise extends to a variety of software tools for computational chemistry, biochemistry, and nanotechnology, showcasing her versatility in modern scientific methodologies. Her dedication to advancing knowledge in organic chemistry underscores her commitment to academic excellence and scientific innovation.

Professional Profiles:

Scopus profile

Orcid profile

Googlescholar profile

ResearchGate profile

LinkedIn profile

Current Academic Position:

Assistant Professor of Organic Chemistry Islamic Azad University Ardabil Branch February 2001 – Present

Research Interests:

Organic Chemistry, Computational Chemistry

Software Skills:

Ab initio, Density Functional Theory (Time Dependent and Independent) for Molecular Clusters and Complexes: MPQC, US-GAMESS, ORCA, NW-Chem, Dalton, Colombus, CPMD, CP2k, OCTOPUS. Density Functional Theory for Periodic Systems: Siesta, Openmx, Quantum-Espresso, VASP. Classical Molecular Dynamics Simulations: NAMD, LAMMPS, DL-POLY, AMBER, MDynamix, Gromacs, GULP. Molecular Docking and Bioinformatics: Autodock, Vina, Dock6.

Research Focus:

Vahideh Hadigheh-Rezvan’s research spans various domains within theoretical and computational chemistry, with a particular focus on elucidating the structural and optical properties of organic compounds. Her work encompasses studies on Schiff bases, phosphines, benzimidazoles, and charge transfer complexes, employing quantum chemical calculations and DFT methods. Notably, she investigates the molecular structure, electronic properties, and spectroscopic characteristics of diverse molecular systems, contributing significantly to the understanding of their behavior and potential applications. Through her comprehensive exploration of these compounds, she advances knowledge in fields such as organic synthesis, material science, and drug analysis, showcasing a broad and impactful research portfolio in theoretical chemistry.

Publications (TOP NOTES)

A review of drug analysis using charge transfer complexes, Publication date: 2023.
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Tahereh Hayeri | Polymers Award | Best Researcher Award

Dr. Tahereh Hayeri, Polymers Award, Best Researcher Award

PHD at Eastern Michigan University, United States

Tahereh (Neda) Hayeri is a highly skilled scientist with over 12 years of experience in the automotive coating industry. Currently pursuing a Ph.D. in Polymers and Coatings Technology at Eastern Michigan University, she specializes in sustainable paint formulations and optimization. With a background in QC chemistry, R&D, and laboratory supervision, she excels in developing eco-friendly coatings and innovative products. Tahereh has presented her research at prestigious conferences and received recognition for her contributions, including Best Paper Awards. She is also a patent pending innovator for her work on LED Nail Gel using Organic-Inorganic Hybrid technology.

Professional Profiles:

Googlescholar profile

ResearchGate profile

LinkedIn profile

 

Educational Background:📚

Ph.D. in Polymers and Coatings Technology (Expected Graduation: 2024), Eastern Michigan University M.Sc. in Marine Chemistry, Islamic Azad University, Science & Research Branch B.Sc. in Applied Chemistry, Khajeh Nasir Toosi University of Technology (KNTU)

Work History:

Graduate Assistant Eastern Michigan University, MI 8/2021-Present Develop hydrophobic sustainable coatings for Wood, Metal, and Plastic substrates with high BioRenewable content. Develop eco-friendly topcoats harnessing sol-gel reactions. Develop non-acrylate UV-LED Nail Gel based on Bio-based Organic-Inorganic Hybrid technology. Collaborate in research projects on carbon neutrality with mechanical departments at Eastern Michigan University and the University of Michigan.

Awards and Scholarships

Recipient of prestigious awards including Best Awards and Special Scholarships for outstanding contributions to the field.

R&D Senior Scientist

Gamma Thinner, Iran 8/2016-8/2021 Formulated and optimized OEM and Refinish Primers, Basecoats, and Clearcoats. Developed anti-dirt refinish clearcoats and various colors for automotive basecoats.

Patent Pending

Innovative patent pending for LED Nail Gel based on Non-Acrylate Organic-Inorganic Hybrid Bio-Based Binder System.

Research Focus:

Tahereh (Neda) Hayeri’s research focus lies in developing eco-friendly and sustainable coatings with high bio-renewable content, utilizing organic-inorganic hybrid technology. Her work emphasizes the creation of VOCs/HAPs-free solutions for topcoats, addressing environmental concerns while maintaining high performance standards. Specifically, her studies have led to the development of bio-based oligomers tailored for hydrophobic organic-inorganic hybrid clearcoats, offering multiple cure capabilities. Additionally, she has contributed to the advancement of versatile oligomers suitable for thermally, UV-, and ambient-curable organic-inorganic hybrid coatings. Through her innovative research, Hayeri aims to pioneer solutions that reduce environmental impact without compromising on quality or functionality.

Publications (TOP NOTES)

Eco-friendly topcoats: vocs/haps-free solutions with high bio-renewable content, grounded in organic-inorganic hybrid technologymanuscript, Publication date: 2024.
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Ryhan Rather | Chemistry Award | Best Researcher Award

Dr. Ryhan Rather, Chemistry Award, Best Researcher Award

PHD at RMIT University, Melbourne, Australia, and AcSIR, India

Dr. Ryhan Abdullah Rather, a Ph.D. in Organic Chemistry from Aligarh Muslim University, is a seasoned researcher and educator. With expertise in heterogeneous catalysis and organic synthesis, he developed novel catalysts, earning accolades like the Senior Research Fellowship from CSIR. Recognized for his contributions, he received Best Research Paper Awards from the American Chemical Society and Aligarh Muslim University. As an assistant professor and lecturer, he imparted knowledge in higher education. Dr. Rather’s proficiency spans the synthesis of light-sensitive compounds, spectroscopic techniques, and a strong publication record, reflecting his dedication to advancing the frontiers of organic chemistry and material science.

Professional Profiles:

Googlescholar profile

 

Educational Background:📚

Ph.D. in Organic Chemistry, Chemistry Division, Aligarh Muslim University, India (2015-2020) Thesis: “Development of New Catalysts: Characterization and Catalytic Evaluation in Organic Synthesis” M.Sc. in Organic Chemistry, Aligarh Muslim University, 2015 (71.00%) B.Sc. in Chemistry, Aligarh Muslim University, 2013 (69%)

Teaching and Research Experience:

Lecturer/Assistant Professor in Higher Education (2021-2023) Senior Research Fellow, Chemistry Division, Aligarh Muslim University (2020) PhD Scholar, Chemistry Division, Aligarh Muslim University (2015-2020)

Awards:

2020: Senior Research Fellowship (SRF) from CSIR, New Delhi 2019: Best Research Paper Award from American Chemical Society 2019: Best Research Paper Award from Aligarh Muslim University, Chemistry Division 2015: Qualified GATE-2015, AIR-1597

Research Interests:

Organic Synthesis, Heterogeneous Catalysis, Material Chemistry

Research Skills:

Planning, organizing, and implementing research projects Conducting collaborative and independent research Supervising graduate and post-graduate project trainees

Research Focus:

The research focus of Ryhan Abdullah Rather and ZN Siddiqui centers on the development and application of novel catalysts for sustainable organic synthesis. Their work encompasses the synthesis, characterization, and evaluation of various heterogeneous catalysts, including metal-organic frameworks (MOFs), nanoparticles, and mesostructured materials. Specifically, they have contributed to the design and utilization of catalysts such as sulfonic acid functionalized MOFs, metal oxide supported carbon nanotubes, and protein-functionalized nanoparticles. Their research aims to provide efficient and environmentally friendly methods for the synthesis of diverse organic compounds, including pyranopyrazoles, acrylonitriles, indenoquinolinediones, and pyrazole carbonitrile derivatives. Through their innovative work, they strive to advance the field of catalysis towards greener and more sustainable chemical processes.

Publications (TOP NOTES)

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